罕见基因变异与非西班牙裔白人阿尔茨海默病家族有关。

Rare genetic variation implicated in non-Hispanic white families with Alzheimer disease.

作者信息

Beecham Gary W, Vardarajan Badri, Blue Elizabeth, Bush William, Jaworski James, Barral Sandra, DeStefano Anita, Hamilton-Nelson Kara, Kunkle Brian, Martin Eden R, Naj Adam, Rajabli Farid, Reitz Christiane, Thornton Timothy, van Duijn Cornelia, Goate Allison, Seshadri Sudha, Farrer Lindsay A, Boerwinkle Eric, Schellenberg Gerard, Haines Jonathan L, Wijsman Ellen, Mayeux Richard, Pericak-Vance Margaret A

机构信息

John P. Hussman Institute for Human Genomics (G.W.B., J.J., K.H.-N., B.K., E.R.M., F.R., M.A.P.-V.), University of Miami, Miller School of Medicine; Dr. John T. Macdonald Foundation Department of Human Genetics (G.W.B., E.R.M., M.A.P.-V.), University of Miami, Miller School of Medicine, FL; The Taub Institute for Research on Alzheimer's Disease and the Aging Brain (B.V., S.B., C.R., R.M.), Columbia University; The Gertrude H. Segievsky Center (B.V., S.B., C.R., R.M.), Columbia University, New York Presbyterian Hospital; Division of Medical Genetics (E. Blue, E.W.), Department of Medicine, University of Washington, Seattle; Institute for Computational Biology (W.B., J.L.H.), Case Western Reserve University, Cleveland, OH; Department of Neurology (A.D., S.S., L.A.F.), Boston University School of Medicine; Department of Biostatistics (A.D., S.S., L.A.F.), Boston University School of Medicine, MA; School of Medicine (A.N., G.S.), University of Pennsylvania, Philadelphia; Department of Biostatistics (T.T., E.W.), University of Washington, Seattle; Erasmus Medical University (C.D.), Rotterdam, The Netherlands; Icahn School of Medicine at Mount Sinai (A.G.), New York, NY; Department of Medicine (L.A.F.), Boston University School of Medicine, MA; and University of Texas (E. Boerwinkle), Houston.

出版信息

Neurol Genet. 2018 Nov 21;4(6):e286. doi: 10.1212/NXG.0000000000000286. eCollection 2018 Dec.

DOI:10.1212/NXG.0000000000000286

PMID:30569016

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6278241/

Abstract

OBJECTIVE

To identify genetic variation influencing late-onset Alzheimer disease (LOAD), we used a large data set of non-Hispanic white (NHW) extended families multiply-affected by LOAD by performing whole genome sequencing (WGS).

METHODS

As part of the Alzheimer Disease Sequencing Project, WGS data were generated for 197 NHW participants from 42 families (affected individuals and unaffected, elderly relatives). A two-pronged approach was taken. First, variants were prioritized using heterogeneity logarithm of the odds (HLOD) and family-specific LOD scores as well as annotations based on function, frequency, and segregation with disease. Second, known Alzheimer disease (AD) candidate genes were assessed for rare variation using a family-based association test.

RESULTS

We identified 41 rare, predicted-damaging variants that segregated with disease in the families that contributed to the HLOD or family-specific LOD regions. These included a variant in nitric oxide synthase 1 adaptor protein that segregates with disease in a family with 7 individuals with AD, as well as variants in , and . Rare-variant association identified 2 LOAD candidate genes associated with disease in these families: (-values = 0.001) and (-value = 0.009). These genes still showed association while controlling for common index variants, indicating the rare-variant signal is distinct from common variation that initially identified the genes as candidates.

CONCLUSIONS

We identified multiple genes with putative damaging rare variants that segregate with disease in multiplex AD families and showed that rare variation may influence AD risk at AD candidate genes. These results identify novel AD candidate genes and show a role for rare variation in LOAD etiology, even at genes previously identified by common variation.

摘要

目的

为了识别影响晚发型阿尔茨海默病（LOAD）的基因变异，我们通过对大量受LOAD多重影响的非西班牙裔白人（NHW）扩展家系进行全基因组测序（WGS）来开展研究。

方法

作为阿尔茨海默病测序项目的一部分，我们为来自42个家系的197名NHW参与者（患病个体及未患病的老年亲属）生成了WGS数据。我们采用了双管齐下的方法。首先，使用异质性对数优势（HLOD）和家系特异性LOD分数以及基于功能、频率和与疾病分离情况的注释对变异进行优先级排序。其次，使用基于家系的关联测试评估已知的阿尔茨海默病（AD）候选基因的罕见变异。

结果

我们在对HLOD或家系特异性LOD区域有贡献的家系中，识别出41个与疾病分离的罕见、预测具有损害性的变异。这些变异包括一氧化氮合酶1衔接蛋白中的一个变异，该变异在一个有7名AD患者的家系中与疾病分离，以及其他一些基因中的变异。罕见变异关联分析在这些家系中识别出2个与疾病相关的LOAD候选基因：（-值 = 0.001）和（-值 = 0.009）。在控制常见索引变异时，这些基因仍显示出关联性，表明罕见变异信号与最初将这些基因鉴定为候选基因的常见变异不同。

结论

我们在多个AD家系中识别出多个具有推定损害性罕见变异且与疾病分离的基因，并表明罕见变异可能在AD候选基因处影响AD风险。这些结果识别出了新的AD候选基因，并显示出罕见变异在LOAD病因学中的作用，即使在先前通过常见变异鉴定出的基因中也是如此。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fcac/6278241/46676e56aef6/NG2018007500FF1.jpg

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罕见基因变异与非西班牙裔白人阿尔茨海默病家族有关。

Rare genetic variation implicated in non-Hispanic white families with Alzheimer disease.

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